22 Copyright © 2014 Korean Neurotraumatology Society

Introduction

Septum formation or multiple membranes within the hematoma cavity is relatively common, especially in the mixed density chronic subdural hematomas (CSHs).1,13,15,18) Septation in preoperative computed tomographic (CT) scans of CSHs were reported as high as 34.8% in a consec-utive series of 320 cases.9) Although CT remains the diag-nosis of choice, magnetic resonance imaging (MRI) is su-perior to CT when detecting membranes in CSHs. MRI can also provide important information concerning the nature of the hematoma.3,8,10,16-18) We could obtain a series of MRI in 64 patients with CSH. We examined the value of MRI to

understand the pathogenic mechanism and history of CSH.

Materials and Methods

We retrospectively examined the medical records and MRI of 64 consecutive patients with CSHs, which was di-agnosed by MRI with or without CT scans from January 2006 to March 2013. When a CSH was suspected, we usu-ally performed CT scan, however, in these patients, MRI was usually selected to rule out any organic causes of hemi-paresis or unexplained headache before CT scans. We clas-sified the CSHs simply into two groups; septated or non-sep-tated group on the basis of MRIs (Figure 1). The septum is defined as a membrane clearly separating hematomas with inhomogeneous contents between the inner and the outer membranes of the CSH.

Statistical analysis was performed using the chi-square test or Fisher’s exact test. For the statistical significance, we divided the etiology into either known or unknown groups. Differences were considered significant if the probability

Multiple Episodes of Hemorrhage Identified in MRI of Chronic Subdural Hematomas

Dong-Ho Seo, MD, Kyeong-Seok Lee, MD, Jae-Joon Shim, MD, and Seok-Mann Yoon, MDDepartment of Neurosurgery, Soonchunhyang University Cheonan Hospital, Cheonan, Korea

Objective: Septa within the hematoma cavity are common, especially in the mixed density chronic subdural hematomas (CSHs). Although CT remains the diagnosis of choice, MRI is superior to detect the membranes in CSHs. We could obtain MRIs in 64 patients with CSH. We examined the value of MRI to understand the history of CSH.Methods: We retrospectively examined the medical records and MRIs of 64 consecutive patients. MRI was selected to find any organic causes of neurologic symptoms. We classified the CSHs into septated or non-septated group, since classifica-tion of the septa was frequently obscure.Results: Septa were identified by MRI in 43 patients (67%). They were more common in the over 70-years-old group. Un-known causes were more common in the septated group, which implies they might suffer from multiple traumas. The sig-nal intensity of the CSH was variable. The methods of treatment were different between two groups. Surgery was more com-mon in the septated group (p=0.021). Surgery was performed in 57 patients (89%). Burr-hole drainage was successful in 55 patients, even in the septated group.Conclusion: Septa within the hematoma cavity may be related to the multiple episodes of head trauma. Repeated trauma may cause acute bleedings over the CSHs, which is one of the pathogenic mechanisms of hematoma enlargement. MRI could show the history of CSH. (Korean J Neurotrauma 2014;10(1):22-25)

KEY WORDS: Chronic subdural hematoma ㆍMagnetic resonance imaging ㆍCraniocerebral trauma ㆍDiagnosis.

Received: March 15, 2014 / Revised: April 21, 2014Accepted: April 21, 2014Address for correspondence: Kyeong-Seok Lee, MDDepartment of Neurosurgery, Soonchunhyang University Cheonan Hospital, 31 Suncheonhyang 6-gil, Dongnam-gu, Cheonan 330-721, KoreaTel: +82-41-570-3652, Fax: +82-41-572-9297E-mail: ksleens@sch.ac.kr

CLINICAL ARTICLEKorean J Neurotrauma 2014;10(1):22-25

pISSN 2234-8999 / eISSN 2288-2243

http://dx.doi.org/10.13004/kjnt.2014.10.1.22

online © ML Comm

Dong-Ho Seo, et al.

http://www.kjnt.org 23

value was less than 0.05.

Results

Septa or membranes were identified within the hemato-ma cavity by MRI in 44 patients (69%). The septa were more common in the over 70-years-old group (Table 1). Howev-er, this difference was not statistically significant (p=0.28 by chi-square test). The signal intensity of the CSH with septa was variable. The most common signal intensity was mixed one on T1-weighted, T2-weighted, or fluid attenuat-ed inversion recovery (FLAIR) images (Figure 2). The male/ female ratio was 49/15. Although we examined the history of head trauma minutely, the etiology was identifiable in only 32 patients (50%). The frequency of unknown causes was more common in the septated group, however, this differ-ence was not statistically significant (p=0.12 by chi-square test). Slipping or falling was the most common cause of head trauma in the septated group, while motor vehicle accident

was more common in the non-septated group. Common symp-toms were contralateral hemiparesis, variable degrees of headache, confusion, and seizure in both groups. Clinical-ly, there were also no statistically significant differences be-tween the septated and non-septated groups, except meth-ods of treatment. Surgery was more common in the septated group, while conservative management was more common in the non-septated group (p=0.049 by Fisher’s test). Con-servative treatment was done in 4 cases of the non-septat-ed group, while it was successful in 2 cases of the septated group. Surgery was performed in 58 patients (91%). Burr hole with retained drainage was successful in 57 patients, even in the septated group. In one patient with septated CSH, revision surgery was needed after a craniotomy with limit-ed membranectomy. Two patients died of malignancy, lung cancer and stomach cancer each, after recovery from the CSH. One patient with alcoholism expired by an acute sub-dural hematoma after a slip in drunken state.

FIGURE 1. Examples of the non-septated and the septated groups. The layered (A) or graded (B) signal intensity is also classified into the non-septated group like the homogeneous (C) signal intensity. Since the patterns of the septa are usually mixed (D-F), it is hard to classify them into any specific subtypes.

A

D E F

B C

24 Korean J Neurotrauma 2014;10(1):22-25

MRI of Chronic Subdural Hematoma

Discussion

Septa or membranes were identified within the hemato-ma cavity by MRI in about 2/3 of the patients. Membranes were frequently observed within the hematoma cavity, es-pecially in mixed density hematomas by the CT scans.3,16-18) Repeated bleeding into the hematoma cavity may induce new inflammatory processes, with accompanying neo-membranes or formation of septa, which is responsible for compartmentalization of the hematoma cavity.13) The septa were more common in the over 70-years-old group, although this difference lacked statistical significance in this study. Mixed density CSHs by the CT scan were more common in the oldest age.16) Since atrophy or enough reserving capacity is more common in the aged brain, the chance of rebleeding into the existing hematoma cavity is more common in the

oldest age. Although some patients with CSH asymptomatic, they

are prone to fall or slip down since they are usually aged and enjoy drinking.12,16) If they slip, even though the injury itself is trivial, it may tear the cortical bridge veins or fragile ves-sels in the neomembrane. The bridge veins in the potential subdural space are thin-walled, and might be under signifi-cant tension by the hematoma.12) Like the repeated microhe-morrhages from the outer membrane, repeated trauma may cause acute bleeding over the CSH as a mechanism of he-matoma enlargement.16) Acute-on-CSH often show layers of extraaxial fluid of varied density separated by internal membranes, septa.12) Sometimes repeated trivial trauma may cause a subdural hygroma, which became a CSH.16) Septa may differentiate such a chronic-on-chronic SDH accord-ing to the different ages of the CSHs.

Although there was no statistical significance, unknown etiology was more common in the septated group. Septa within the hematoma cavity may be related to the multiple episodes of head trauma. Multiple episodes of trauma are hard to remember compared to a single traumatic event. In the septated group, it might be hard to remember all the triv-ial traumas. Mixed density of CSH by CT scans results from multiple episodes of trauma, especially in the oldest age.16) The etiology was frequently obscure in the mixed density CSHs by CT scans, too.16)

According to the internal structure of the hematoma, sub-types were proposed.3,18) Theoretically, the acute-on-chronic SDHs tend to produce so-called multi-lobule type mem-brane, while chronic-on-chronic SDHs would produce mul-ti-layer type membrane.16) However, it is hard to classify the septa in the hematoma cavity into any specific patterns or subtypes. The septa frequently appeared mixed patterns. The CSHs with septa were appeared as mixed signal inten-sity in various images of MRI. In general, chronic subdu-ral hematomas were hyperintense on both T1- and T2-weight-ed MRI.6) The signal intensity of the CSH was variable. The most common signal intensity was mixed one on T1-weight-

TABLE 1. Clinical features of 64 patients with CSHs diagnosed by MRI

Non-septated Septated Subtotal p value

Age (yrs) 0.28≤70 12 20 32≥71 8 24 32

Causes 0.12Unknown 9 23 32Slip/Fall 4 14 18MVA 5 7 12Others 2 0 2

Symptoms 0.62Headache 6 17 23Hemiparesis 11 20 31↓Mentality 2 3 5Others 1 4 5

Treatment 0.049Surgery 16 42 58Conservative 4 2 6

Subtotal 20 44 64CSHs: chronic subdural hematomas, MVA: motor vehicle ac-cident

T1 T2 FLAIR T1 E T2 FFE

FIGURE 2. The signal intensity of the chronic subdural hematoma with septa was mixed one on T1-weighted, T2-weighted, fluid attenuated inversion recovery (FLAIR), T1-enhanced (T1 E) or T2 fast field echo (T2 FFE) images.

Dong-Ho Seo, et al.

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ed, T2-weighted, or FLAIR images. The septa within the he-matoma cavity implied episodes of rebleeding. Thus, MRI could show the history of CSHs including multiple episodes of trivial traumas.

Surgery was performed in 57 patients, more commonly in the septated group. Some insisted that the burr-hole treph-ination was insufficient to remove the septated CSHs.5,18) Craniotomy or neuroendoscopic techniques have been used for multiloculated septated or organized hematomas.2,7) How-ever, the septa were usually fragile and rarely enclose com-pletely, separated from any cavities. There was free com-munication, which allows draining out the hematomas.16) Even in completely separated cavities, drainage of the he-matoma from the relatively large cavity may decompress to recover the clinical symptoms or may tear the fragile septa. The neomembrane of the hematoma contains several layers of capillaries with large lumens and many thin new vessels deriving from the middle meningeal artery. These blood ves-sels, in the presence of coagulopathy, are more vulnerable and can easily rebleed. Thus, craniotomy with partial mem-branectomy or any mechanical manipulation of the hema-toma membrane in patients with coagulopathy carry a dis-tinctly higher risk of rebleeding.11) Endoscopic removal of the hematoma with membrane is rarely recommended.4) Burr hole with retained drainage was successful in 55 patients, even in the septated group. Even in acute-on-chronic sub-dural hematomas, removal of the liquefied hematoma only by a burr hole was possible to relieve the displacement.12) Al-though there were membranes within the hematoma, burr hole was usually enough to drain the hematomas.16) Craniot-omy may be necessary for those instances in which the sub-dural collection reaccumulates, the brain fails to expand, or there is solid hematoma.14)

Conclusion

The septa within the hematoma cavity implied episodes of rebleeding. Thus, repeated trauma may cause acute bleed-ings over the CSHs, which is one of the pathogenic mech-anisms of hematoma enlargement. MRI could show the his-tory of CSH including multiple episodes of trivial traumas.

■ The authors have no financial conflicts of interest.

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